// Copyright (c) 1999,2016 // Utrecht University (The Netherlands), // ETH Zurich (Switzerland), // INRIA Sophia-Antipolis (France), // Max-Planck-Institute Saarbruecken (Germany), // and Tel-Aviv University (Israel). All rights reserved. // // This file is part of CGAL (www.cgal.org) // // $URL: https://github.com/CGAL/cgal/blob/v5.1/Homogeneous_kernel/include/CGAL/Homogeneous/predicates_on_pointsH3.h $ // $Id: predicates_on_pointsH3.h 0779373 2020-03-26T13:31:46+01:00 Sébastien Loriot // SPDX-License-Identifier: LGPL-3.0-or-later OR LicenseRef-Commercial // // // Author(s) : Stefan Schirra, Olivier Devillers, Mariette Yvinec #ifndef CGAL_PREDICATES_ON_POINTSH3_H #define CGAL_PREDICATES_ON_POINTSH3_H #include #include namespace CGAL { template < class R > CGAL_KERNEL_MEDIUM_INLINE bool lexicographically_xy_smaller(const PointH3 &p, const PointH3 &q) { typedef typename R::RT RT; RT pV = p.hx()*q.hw(); RT qV = q.hx()*p.hw(); if ( pV < qV ) { return true; } if ( qV < pV ) { return false; } // same x pV = p.hy()*q.hw(); qV = q.hy()*p.hw(); if ( pV < qV ) { return true; } return false; } template < class R> CGAL_KERNEL_MEDIUM_INLINE Comparison_result compare_xy(const PointH3& p, const PointH3& q) { typedef typename R::RT RT; RT pV = p.hx()*q.hw(); RT qV = q.hx()*p.hw(); if ( pV < qV ) { return SMALLER; } if ( qV < pV ) // ( pV > qV ) { return LARGER; } // same x pV = p.hy()*q.hw(); qV = q.hy()*p.hw(); if ( pV < qV ) { return SMALLER; } if ( qV < pV ) // ( pV > qV ) { return LARGER; } // same x and y return EQUAL; } template < class R > CGAL_KERNEL_INLINE bool equal_xy(const PointH3 &p, const PointH3 &q) { return (p.hx() * q.hw() == q.hx() * p.hw() ) && (p.hy() * q.hw() == q.hy() * p.hw() ); } template < class R > // ??? -> == CGAL_KERNEL_INLINE bool equal_xyz(const PointH3 &p, const PointH3 &q) { return (p.hx() * q.hw() == q.hx() * p.hw() ) && (p.hy() * q.hw() == q.hy() * p.hw() ) && (p.hz() * q.hw() == q.hz() * p.hw() ); } template < class R > CGAL_KERNEL_INLINE bool less_x(const PointH3 &p, const PointH3 &q) { return (p.hx() * q.hw() < q.hx() * p.hw() ); } template < class R > CGAL_KERNEL_INLINE bool less_y(const PointH3 &p, const PointH3 &q) { return (p.hy() * q.hw() < q.hy() * p.hw() ); } template < class R > CGAL_KERNEL_INLINE bool less_z(const PointH3 &p, const PointH3 &q) { return (p.hz() * q.hw() < q.hz() * p.hw() ); } template Oriented_side power_side_of_oriented_power_sphereH3( const RT &phx, const RT &phy, const RT &phz, const RT &phw, const Quotient &pwt, const RT &qhx, const RT &qhy, const RT &qhz, const RT &qhw, const Quotient &qwt, const RT &rhx, const RT &rhy, const RT &rhz, const RT &rhw, const Quotient &rwt, const RT &shx, const RT ­, const RT &shz, const RT &shw, const Quotient &swt, const RT &thx, const RT &thy, const RT &thz, const RT &thw, const Quotient &twt) { RT npwt = pwt.numerator(); RT dpwt = pwt.denominator(); RT nqwt = qwt.numerator(); RT dqwt = qwt.denominator(); RT nrwt = rwt.numerator(); RT drwt = rwt.denominator(); RT nswt = swt.numerator(); RT dswt = swt.denominator(); RT ntwt = twt.numerator(); RT dtwt = twt.denominator(); RT dphx = phx*phw; RT dphy = phy*phw; RT dphz = phz*phw; RT dphw = CGAL_NTS square(phw); RT dpz = (CGAL_NTS square(phx) + CGAL_NTS square(phy) + CGAL_NTS square(phz))*dpwt - npwt*dphw; RT dqhx = qhx*qhw; RT dqhy = qhy*qhw; RT dqhz = qhz*qhw; RT dqhw = CGAL_NTS square(qhw); RT dqz = (CGAL_NTS square(qhx) + CGAL_NTS square(qhy) + CGAL_NTS square(qhz))*dqwt - nqwt*dqhw; RT drhx = rhx*rhw; RT drhy = rhy*rhw; RT drhz = rhz*rhw; RT drhw = CGAL_NTS square(rhw); RT drz = (CGAL_NTS square(rhx) + CGAL_NTS square(rhy) + CGAL_NTS square(rhz))*drwt - nrwt*drhw; RT dshx = shx*shw; RT dshy = shy*shw; RT dshz = shz*shw; RT dshw = CGAL_NTS square(shw); RT dsz = (CGAL_NTS square(shx) + CGAL_NTS square(shy) + CGAL_NTS square(shz))*dswt - nswt*dshw; RT dthx = thx*thw; RT dthy = thy*thw; RT dthz = thz*thw; RT dthw = CGAL_NTS square(thw); RT dtz = (CGAL_NTS square(thx) + CGAL_NTS square(thy) + CGAL_NTS square(thz))*dtwt - ntwt*dthw; dthx *= dtwt; dthy *= dtwt; dthz *= dtwt; dthw *= dtwt; return - sign_of_determinant(dphx, dphy, dphz, dpz, dphw, dqhx, dqhy, dqhz, dqz, dqhw, drhx, drhy, drhz, drz, drhw, dshx, dshy, dshz, dsz, dshw, dthx, dthy, dthz, dtz, dthw); } // The 2 degenerate are not speed critical, and they are quite boring and error // prone to write, so we use the Cartesian version, using FT. } //namespace CGAL #endif // CGAL_PREDICATES_ON_POINTSH3_H